Acid Dissociation in (HX)n(H2O)n Clusters (X=F, Cl, Br, I; n=2, 3)**

Alba Vargas-Caamal; Eugenia Dzib; Filiberto Ortiz-Chi; Albeiro Restrepo; Gabriel Merino

doi:10.1002/cphc.202200582

Acid Dissociation in (HX)_n(H₂O)_n Clusters (X=F, Cl, Br, I; n=2, 3)**

Alba Vargas-Caamal, Eugenia Dzib, Filiberto Ortiz-Chi, Albeiro Restrepo, Gabriel Merino

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Resumen

In this work, we analyze the interactions between two or three hydrogen halide molecules and the same number of water moieties through a systematic exploration of their potential energy surfaces. Our results indicate that the most stable HF and HCl aggregates do not experience dissociation of any of the acid fragments, even with three water molecules. In contrast, in the HBr and HI clusters, one of the acid fragments does dissociate. While the global minimum of (HBr)₃(H₂O)₃ is a hydrogen-bridged bihalide anion (BrHBr⁻), which is persistent at temperatures up to 203 K, the lowest energy structure of (HI)₃(H₂O)₃ has a separated ion pair, but the motif with a bihalide anion (IHI⁻) is only 0.2 kcal mol⁻¹ above the global minimum. Among the more stable structures is a broad spectrum of contacts, including water⋯water, HX⋯water, and HX⋯HX hydrogen bonds, halogen bonds, ionic and long-range X⋯H contacts.

Idioma original	Inglés
Número de artículo	e202200582
Publicación	ChemPhysChem
Volumen	24
N.º	2
DOI	https://doi.org/10.1002/cphc.202200582
Estado	Publicada - 17 ene. 2023
Publicado de forma externa	Sí

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abstract = "In this work, we analyze the interactions between two or three hydrogen halide molecules and the same number of water moieties through a systematic exploration of their potential energy surfaces. Our results indicate that the most stable HF and HCl aggregates do not experience dissociation of any of the acid fragments, even with three water molecules. In contrast, in the HBr and HI clusters, one of the acid fragments does dissociate. While the global minimum of (HBr)3(H2O)3 is a hydrogen-bridged bihalide anion (BrHBr−), which is persistent at temperatures up to 203 K, the lowest energy structure of (HI)3(H2O)3 has a separated ion pair, but the motif with a bihalide anion (IHI−) is only 0.2 kcal mol−1 above the global minimum. Among the more stable structures is a broad spectrum of contacts, including water⋯water, HX⋯water, and HX⋯HX hydrogen bonds, halogen bonds, ionic and long-range X⋯H contacts.",

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AU - Vargas-Caamal, Alba

AU - Dzib, Eugenia

AU - Ortiz-Chi, Filiberto

AU - Restrepo, Albeiro

AU - Merino, Gabriel

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N2 - In this work, we analyze the interactions between two or three hydrogen halide molecules and the same number of water moieties through a systematic exploration of their potential energy surfaces. Our results indicate that the most stable HF and HCl aggregates do not experience dissociation of any of the acid fragments, even with three water molecules. In contrast, in the HBr and HI clusters, one of the acid fragments does dissociate. While the global minimum of (HBr)3(H2O)3 is a hydrogen-bridged bihalide anion (BrHBr−), which is persistent at temperatures up to 203 K, the lowest energy structure of (HI)3(H2O)3 has a separated ion pair, but the motif with a bihalide anion (IHI−) is only 0.2 kcal mol−1 above the global minimum. Among the more stable structures is a broad spectrum of contacts, including water⋯water, HX⋯water, and HX⋯HX hydrogen bonds, halogen bonds, ionic and long-range X⋯H contacts.

AB - In this work, we analyze the interactions between two or three hydrogen halide molecules and the same number of water moieties through a systematic exploration of their potential energy surfaces. Our results indicate that the most stable HF and HCl aggregates do not experience dissociation of any of the acid fragments, even with three water molecules. In contrast, in the HBr and HI clusters, one of the acid fragments does dissociate. While the global minimum of (HBr)3(H2O)3 is a hydrogen-bridged bihalide anion (BrHBr−), which is persistent at temperatures up to 203 K, the lowest energy structure of (HI)3(H2O)3 has a separated ion pair, but the motif with a bihalide anion (IHI−) is only 0.2 kcal mol−1 above the global minimum. Among the more stable structures is a broad spectrum of contacts, including water⋯water, HX⋯water, and HX⋯HX hydrogen bonds, halogen bonds, ionic and long-range X⋯H contacts.

KW - acids

KW - cluster compounds

KW - dissociation

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KW - microsolvation

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